A neuromorphic binaural hearing sensor. A neuromorphic binaural hearing sensor will be created. The system includes two cochleae and targeted processing pathways in the auditory brainstem that aid in solving the Cocktail Party Problem: i.e. foreground-background sound separation, sound localisation, and sound recognition. The VLSI circuits will enable real-time implementation of complex auditory models. As we develop our VLSI binaural ear, we will experiment with afferent (feed forward) and ....A neuromorphic binaural hearing sensor. A neuromorphic binaural hearing sensor will be created. The system includes two cochleae and targeted processing pathways in the auditory brainstem that aid in solving the Cocktail Party Problem: i.e. foreground-background sound separation, sound localisation, and sound recognition. The VLSI circuits will enable real-time implementation of complex auditory models. As we develop our VLSI binaural ear, we will experiment with afferent (feed forward) and efferent (feed back) auditory signal processing that is similar to real auditory systems and that demonstrate efficient, effective, and low-power signal processing algorithms for binaural (two-sensor) hearing systems.Read moreRead less
A Wearable Motion Analysis System: Novel Clinical and Research Applications. Because the biomechanical analysis of human motion is confined to the laboratory, it often has restricted applicability. This is a recognized limitation, because laboratory studies cannot capture the true picture of how individuals move under conditions encountered during daily living. Consequently there are many situations where a more complete and realistic knowledge of biomechanics would be significant advantage such ....A Wearable Motion Analysis System: Novel Clinical and Research Applications. Because the biomechanical analysis of human motion is confined to the laboratory, it often has restricted applicability. This is a recognized limitation, because laboratory studies cannot capture the true picture of how individuals move under conditions encountered during daily living. Consequently there are many situations where a more complete and realistic knowledge of biomechanics would be significant advantage such as in the diagnosis, treatment and rehabilitation of movement disorders and injuries. The research project described in this proposal would for the first time, obtain comprehensive biomechanical data outside the laboratory using a fully integrated wearable motion analysis system.Read moreRead less
Non-invasive diagnosis using micropatches that sample biomarkers from skin. We are developing a technology called the micropatch that is laid onto the surface of the skin. When the patch is pulled away, it retains proteins found in the subsurface skin layers. We believe that by analysing these proteins we will be able to diagnose diseases like cancer earlier and therefore have a better chance of treating them successfully. The process is painless, and doctors already use it to give drugs and vac ....Non-invasive diagnosis using micropatches that sample biomarkers from skin. We are developing a technology called the micropatch that is laid onto the surface of the skin. When the patch is pulled away, it retains proteins found in the subsurface skin layers. We believe that by analysing these proteins we will be able to diagnose diseases like cancer earlier and therefore have a better chance of treating them successfully. The process is painless, and doctors already use it to give drugs and vaccines. In the future we hope that our technology will be simple enough for routine diagnosis, even in the Outback where doctors are hundreds of kilometres awayRead moreRead less
Development of a biosensor/bioassay for measuring nutrient pollution. Input of nutrients to water bodies is associated with a deterioration of ecological health. Uncertainty remains about the effect of nutrients on the Great Barrier Reef as monitoring in remote locations remains difficult, expensive and rather sporadic. Here we aim to develop a sensitive and continuous monitoring technique. The availability of such a technique will allow more appropriate monitoring of nutrient inputs. This wi ....Development of a biosensor/bioassay for measuring nutrient pollution. Input of nutrients to water bodies is associated with a deterioration of ecological health. Uncertainty remains about the effect of nutrients on the Great Barrier Reef as monitoring in remote locations remains difficult, expensive and rather sporadic. Here we aim to develop a sensitive and continuous monitoring technique. The availability of such a technique will allow more appropriate monitoring of nutrient inputs. This will facilitate appropriate application of nutrients, in the form of agricultural fertilizer and sustainable land management practices in order to minimize the risk of nutrients to the environment and humans.Read moreRead less
Disposable microfluidic diagnostics for new generation foods, beverages and oral care products. The outcomes of this project will lead to the establishment of a new paradigm in designing foods, beverages and oral care products that have tailored health and vitality benefits (e.g. reduced levels of fat, sugar and salt). In addition, these foods will contain beneficial additives (e.g. anti-oxidants, vitamins, minerals, phytonutrients) targeted to specific consumer groups according to their lifesty ....Disposable microfluidic diagnostics for new generation foods, beverages and oral care products. The outcomes of this project will lead to the establishment of a new paradigm in designing foods, beverages and oral care products that have tailored health and vitality benefits (e.g. reduced levels of fat, sugar and salt). In addition, these foods will contain beneficial additives (e.g. anti-oxidants, vitamins, minerals, phytonutrients) targeted to specific consumer groups according to their lifestyle, age, medical condition or requirement for nutritional/nourishment efficacy, thereby contributing to healthy ageing. It is foreseen that this novel approach to designing foods will be extended to products intended for consumers whose sensory perception is compromised by existing medical therapeutic practices (such as radiation therapy).Read moreRead less
Quantum Nanoscience. This project will deliver a new Australian capability in the core nanotechnology of quantum electromechanical systems. Nanotechnology is a suite of techniques and processes to create new materials and devices through complex processing of constituents at the nanoscale and, in the case of quantum electromechanical systems, even with moving parts. At the nanoscale, quantum principles apply. New nano-fabrication methods are now available to build nano-electromechanical systems ....Quantum Nanoscience. This project will deliver a new Australian capability in the core nanotechnology of quantum electromechanical systems. Nanotechnology is a suite of techniques and processes to create new materials and devices through complex processing of constituents at the nanoscale and, in the case of quantum electromechanical systems, even with moving parts. At the nanoscale, quantum principles apply. New nano-fabrication methods are now available to build nano-electromechanical systems (NEMS), integrated with electronics and nano optics and cooled into the quantum regime. Quantum electromechanical systems (QEMS) enable new sensors with ultimate sensitivity limited only by the Heisenberg uncertainty principle, with applications in photonics, metrology and bio molecular imaging.Read moreRead less